Original Research Article DOI: 10.26479/2018.0403.34 ...composition [12]. The team recorded 255 spp....
Transcript of Original Research Article DOI: 10.26479/2018.0403.34 ...composition [12]. The team recorded 255 spp....
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Original Research Article DOI: 10.26479/2018.0403.34
SACRED GROVES: TREASURE HOUSE OF LEAF SPOTTING
AND SOIL FUNGI
Saira George, Justin R Nayagam*, K I Mani Varghese
Department of Botany, Union Christian College, Aluva,
(Affiliated to Mahatma Gandhi University, Kottayam) India.
ABSTRACT: Taxonomical and ecological studies on leaf spotting fungi and soil fungi from
selected sacred groves of Central Kerala were done. Twenty species of fungi were identified from
these forest patches. Eleven species were leaf-spotting fungi of which nine belonged to class
Duteromycotina and two species to class Ascomycotina. Nine species were soil fungi. Of this,
three belonged to class Duteromycotina, five belonged to Basidiomycotina and one to Ascomycotina.
All indicates their role in bio-geochemical cycle of these regions. Cercosporidium chaetomium was
a new species record to Kerala. Cladosporium herbarum was found on a new host Sandalum album
which was a new host record to Kerala.
KEYWORDS: Sacred groves, leaf spotting fungi, soil fungi, central Kerala.
*Corresponding Author: Justin R Nayagam*
Department of Botany, Union Christian College, Aluva, (Affiliated to Mahatma Gandhi
University, Kottayam) India. Email Address: [email protected]
1.INTRODUCTION
Sacred groves are isolated patches of forest delimited and protected by human societies in the midst
of agricultural landscape in an undisturbed condition [1]. They act as a functional link between forest
management system and social life of a region [2]. They provide an invaluable gene pool, conserve
biodiversity, helps in soil and water conservation and thereby contribute to ecosystem services [3].
The total area of sacred groves in India as a whole reported so far may cover over 42000 ha [4].
According to some findings [5] about 500 ha of forest area is under sacred grove, which contributes
to 0.05% of the total forest area of Kerala [6]. The size of sacred groves in Kerala varies as small as
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one cent to 20 or more hectares. About 79% of them are small i.e. below 0.02 ha. in extent [7].
Cultural homogenization and real estate demands leads to the disappearance of sacred groves at an
increased rate [8]. Sacred groves provide unique habitat where abundant species of fungi can be
sustained and thereby play an important role in conservation of fungi [9]. The kingdom of fungi
contains 1.5 million fungal species, of which 74,000 species are named [10]. One third of fungal
diversity of the globe exists in India. The number of fungi reported in India exceeds 27,000 species,
the largest biotic community after insects [11]. Tropical climate of Kerala is very congenial for
luxuriant growth of fungi. Silent Valley forests in Kerala have a rich and most diverse species
composition [12]. The team recorded 255 spp. and 152 genera of Hyphomycetes from this region
alone. Several studies for fungal diversity collection [13] [14] [15] recorded over thousand fungal
taxa from Kerala, the southern peninsular sate of India during the last few decades. In spite of the
enormous work put- in on the fungal systematics, the mycoflora of India is still only partly explored
especially of the Southern India. The present study aims to investigate the fungal biodiversity of
some selected sacred groves of Central Kerala. No much work has been carried out on fungal flora
of these regions. Different taxonomic groups of fungi are found in some special habitats where they
form a specialized group adapted to a particular set of habitat conditions. Fungi collected and studied
for the present work were based on the habitat. The possibility of indexing the leaf spotting fungi
and soil fungi belonging to different taxonomical groups are investigated in the present study.
2. MATERIALS AND METHODS
Study area includes ten sacred groves of Central Kerala. They are Iringole kavu, Chovvazcha kavu,
Koozhipilly kavu, Panichayam kavu, Kuzhupilly kavu), Chakarakattu kavu, Palakkattu kavu,
Chorian kavu, Vallikattu kavu and Aalpara kavu (Table.1) (Figure.1). Periodic collection of fungi
were made from the above ten sacred groves during summer season from February to April. For
field collections, vasculum, lens, knife, scissors, tag, etc. were used. Most of the host plants were
identified in the field itself. The specimens were brought to the laboratory and infected regions were
critically examined using dissection microscope for symptamatology. Tease mounts and scratch
mounts were made for microscopic observations. Hand sections were also made. Mounting was
done on slide using5%KOH and lactophenol, as general mounting media. Cotton blue was used for
staining. Sections were observed under a research microscope (Olympus trinocular) for studying
detailed morphological characters. Measurements of all microscopic structures were taken using
micrometer. Drawings were made using a camera lucida (Prism type) attached to the microscope.
Macro fungal fruit bodies were wrapped in paper bags and brought to laboratory. Spore prints were
taken on micro slides / paper by keeping the fresh fruit body in humid condition. Measurement and
detailed observation of fruit body were made in the laboratory and the materials dried in a hot air
oven at 70 c. Representative portions of the dried specimens were used for microscopic studies. The
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rest of the fruit body were treated with mercuric chloride against mites and moulds and stored with
mothballs in paper as voucher specimens.
.
Figure 1: Sacred groves (a) Chakarakattu kavu (b) Panichayam kavu (c) Kuzhupilly kavu
(d) Palakkattu kavu
For soil fungi, soil samples were collected and brought to laboratory in sterilized polythene bags. 5-
15 mg of soil was added aseptically into sterile Petri dish. Plates were incubated at room temperature.
To isolate the fungal species, soil was inoculated to culture medium. All the materials collected
during this period of investigation were deposited at the Mycological herbarium, Dept. of Botany,
Union Christian College, Aluva.
c d
a b
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Table 1. Location and area (in hectares) of ten selected sacred grooves
Sl. No. Sacred groves Site
(SG)
Area (ha.) Coordinates
1 Iringole kavu SG1 16 10.10912 76.50041
2 Chovvazcha kavu SG2 0.12 10.14063 76.45865
3 Koozhipilly kavu SG3 0.10 10.11952 76.43488
4 Panichayam kavu SG4 0.08 10.1071 76.56339
5 Kuzhupilly kavu SG5 0.61 10.11696 76.47166
6 Chakkarakattu kavu SG6 0.10 10.12786 76.47761
7 Palakattu kavu SG7 0.20 10.11391 76.46252
8 Chorian kavu SG8 0.12 10.10581 76.58877
9 Vallikattu kavu SG9 0.20 10.13225 76.47555
10 Aalpara kavu SG10 0.40 10.1867 76.49038
3. RESULTS AND DISCUSSION
Fungi collected and studied from the present study were classified based on habitat into leaf spotting
fungi and soil fungi. After critical microscopic observation the materials were assigned to the
respective species.
Leaf spotting fungi: Leaves form suitable substrate for many fungi. The leaf surface is a most
inhospitable niche in both physical and chemical terms for fungi. Eleven species of leaf spotting
fungi were collected and studied from these sacred groves (Table. 2). Among them nine belonged to
class Duteromycotina, of which four were of order Moniliales and two of Melanoconiales. Two
species of leaf spotting fungi belonged to class Ascomycotina of which one included in order
Meliolales and one in order Phyllachorales. Leaf spotting fungi of Kerala was studied and reported
by several workers [16] [17] [18] [19], which includes most of the species identified but data are
scanty on sacred grove fungal studies. A detailed survey revealed a rich flora of plant pathogenic
fungi harboring the plants in different ecosystems of Western Ghats [20]. Study on endophytic fungi
on tropical plants and found that reducing the size and increasing the number of leaf fragments will
increase the number of fungal species isolated [21].
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Table 2. Distribution of leaf spotting fungi in study area
Sr.No. Fungus Host Site
1 Alternaria alternata (Fr.) Keissler Ocimum sanctum L
Bambusa bambos (L.) Voss.
SG4
SG8
2 Cercospora tremae (Stev
& Soth) Chupp.
Ocimum sanctum L
SG4
3 Cercosporidium chaetomium
(Cooke) Deighton
Euphorbia pulcherimaWilld. SG2
4 Cladosporium herbarum (Pers.)Link. Santalum album L. SG1
5 Colletotrichum gloeosporioides
Penz. &Sacc.
Terminalia paniculataRoth. SG1
6 Corynespora cassiicola (Berk
& Curt.) Wei
Lantana camera L.
SG7
7 Curvularia lunata (Wakk.)Boed. Gossypium hirsutum L. SG8
8 Meliola ixorae Yates var.
macrospora Hosag.
Ixora nigricans R.Brown .Ex
W& A.
SG6
9 Pestalotia calophylli P.Henn. Calophyllum inophyllum L.
SG1
10 Phyllachora repens (Corda.)Sacc. Ficus religiosa L SG9
11 Zygosporium oscheoidesMont. Ficus religiosa L. SG5
Dark setae are present in Colletotrichum gloeosporioides and Meliola ixorae. Conidial scars are
prominent in Cercosporidium chaetomium and Cercospora tremae. Conidia were found in chains in
Cladosporium herbarum and Alternaria alternate. Conidia were septate in Cercosporidium
chaetomium (up to 3), Corynespora cassiicola (numerous), Curvularia lunata (3), Alternaria
alternata (transverse and longitudinal), Cercospora tremae (10-15) and Pestalotia calophylli (4). In
Zygosporium oscheoides conidiophores bear a vesicle which was terminating in a knob. Two species
of Cercosporidium, C.helleri and C.henningsii was reported from Ernakulam district of Kerala.
[22][23]. Cercosporidium chaetomium was a new species to Kerala. Cladosporium herbarum was
reported on seeds and seedlings of Albizzia odoratissima and on seeds of Pterocarpus marsupium
from Thrissur district of Kerala [24]. But it was not reported earlier on the host, Santalum album
from Kerala.
Soil Fungi: Soil fungi are also important as decomposers. They digest hard-to-digest organic
materials. Fungal hyphae physically bind soil particles together, creating stable aggregates that help
to increase soil water holding capacity. A study for soil fungi with 158 samples from various areas
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of four districts of Kerala and screened for prevalence keratinophyllic fungi and related
dermatophytes-a total of 8 genera with 15 species were isolated [25]. In present study nine species
of fungi were isolated from soil (Table.3) (Figure.2). Three species were microscopic and six
macroscopic. Microscopic fungi – Graphium putredinis, Humicola grisea and Nigrospora sphaerica
belonged to class Duteromycotina and order Moniliales. Graphium putredinis was reported from
Wayanad (Kerala) on dead stems of a palm [26]. Only this species of Graphium has been reported
from Kerala [15]. Among macroscopic fungi, Volveriella speciosa,Termitomyces microcarpus and
Marasmius floriceps belongs to Agaricales of Basidiomycotina. T. microcarpus was reported on soil
from Mulamkuzhi (Ernakulam), Peechi (Thrissur), Malabar and Malappuram [27][28][13][20].
Dictyophora sp. and Geastrum triplex belongs to order Phallales and Lycoperdales respectively of
Basidiomycotina. Xylaria rhombica belongs to Ascomycotina and order Xylariales. Conidiophores
are synnematous in Graphium putredinis. Volvariella speciosa was provided with a persistent volva.
Dictyophora sp. has got a well developed inducium which hangs down and form a network.
Table 3. Distribution of soil fungi in study area
Sl.No. Fungus Site
1 Dictyophora sp.Dev. SG8
2 Geastrum triplex Junghuhn. SG1
3 Graphium putredinis (Corda.)Hughes. SG1
4 Humicola grisea Traaen SG5
5 Marasmius floriceps Berk.& Curt. SG1, SG3
6 Nigrospora sphaerica (Sacc.)Mason. SG1
7 Termitomyces microcarpus
(Berk &Br.) Heim.
SG10, SG3, SG2
8 Volvariella speciosa (Fr.
ex Fr.)Singer.
SG3, SG8
9 Xylaria rhizomorpha (Mont.) SG1
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Figure 2. Fruiting bodies of (a) Volvariella speciosa (Fr. ex Fr.) Singer. (b) Xylaria
rhizomorpha (Mont.) Mont. (c) Marasmius floriceps Berk. & Curt. (d) Termitomyces
microcarpus (Berk &Br.) Heim.
4. CONCLUSION
Results covering- up taxonomical and ecological studies on different groups of fungi from the
isolated forest patches (sacred groves) of Central Kerala, forty species of fungi studied add to the
mycoflora of Kerala. Literature survey clearly indicates that the study on fungal diversity of sacred
groves was a totally unexplored area and hence adds new information to science. Thus the present
investigation especially with respect to taxonomy and systematic of fungi has indicated possibilities
of further exploration and getting more and more interesting forms, if a concentrated and intensified
approach is being made by future research workers.
a b
c d
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5.ACKNOWLEDGEMENT
Authors are grateful to the Principal and head of the Department of Botany, Union Christian College,
Aluva for providing all laboratory facilities. We are also thankful to the private management and
owners of sacred groves for permitting fungal collections.
6. CONFLICT OF INTEREST
Authors have no conflict of interest.
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